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demo_netx_duo_multihome_udp.c
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demo_netx_duo_multihome_udp.c
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/* This is a small demo of the high-performance NetX Duo TCP/IP
IPv4/IPv6 dual stack. This demo concentrates on UDP datagram
send/receive in IPv4 and IPv6 network in a simulated Ethernet
driver in a multihome environment. */
/*
IP_0 has two simulated phyiscal interfaces.
The primary interface is 1.2.3.4/255.255.255.0
the secondary interface is 2.2.3.4/255.255.255.0
IP_1 has two simulated physical interface.
The primary interface is 1.2.3.5/255.255.255.0
the secondary interface is 2.2.3.5/255.255.255.0
Each interface has an IPv6 link local address and
an IPv6 global address. The following table lists the IPv6
configuration:
IP_0 primary interface Link Local Address: FE80::
IP_0 primary interface Global Address:
IP_0 secondary interface Link Local Address: FE80::
IP_0 secondary interface Global Address:
IP_1 primary interface Link Local Address: FE80::
IP_1 primary interface Global Address:
IP_1 secondary interface Link Local Address: FE80::
IP_1 secondary interface Global Address:
These four simulated interfaces are connected to the same channel.
--------- Primary Primary ---------
| | Interface Interface | |
| IP_0 |---------------------- |----------------| IP_1 |
| | 1.2.3.4 | | 1.2.3.5 | |
| | 2001::4 | | 2001::5 | |
| | | | | |
| | | | | |
| |------------------- | | --------------| |
| | Secondary | | | | Secondary | |
--------- Interface | | | | Interface ---------
2.2.3.4 | | | | 2.2.3.5
2002::4 | | | | 2002::5
------------------
| |
| Switch Box |
| |
------------------
*/
#include "tx_api.h"
#include "nx_api.h"
#if (NX_MAX_PHYSICAL_INTERFACES > 1)
#define DEMO_STACK_SIZE 2048
#define DEMO_DATA "ABCDEFGHIJKLMNOPQRSTUVWXYZ "
#define PACKET_SIZE 1536
#define POOL_SIZE ((sizeof(NX_PACKET) + PACKET_SIZE) * 16)
/* Define the ThreadX and NetX object control blocks... */
TX_THREAD thread_0;
TX_THREAD thread_1;
NX_PACKET_POOL pool_0;
NX_IP ip_0;
NX_IP ip_1;
NX_UDP_SOCKET socket_0;
NX_UDP_SOCKET socket_1;
UCHAR pool_buffer[POOL_SIZE];
/* Define the counters used in the demo application... */
ULONG thread_0_counter;
ULONG thread_1_counter;
ULONG error_counter;
/* Define thread prototypes. */
void thread_0_entry(ULONG thread_input);
void thread_1_entry(ULONG thread_input);
void _nx_ram_network_driver(struct NX_IP_DRIVER_STRUCT *driver_req);
#define PRIMARY_INTERFACE 0
#define SECONDARY_INTERFACE 1
#ifndef NX_DISABLE_IPV4
NXD_ADDRESS ip1_primary_ipv4_address;
NXD_ADDRESS ip1_secondary_ipv4_address;
#endif /* NX_DISABLE_IPV4 */
#ifndef NX_DISABLE_IPV6
UINT ip0_primary_linklocal_address_index;
UINT ip0_primary_global_address_index;
UINT ip0_secondary_linklocal_address_index;
UINT ip0_secondary_global_address_index;
UINT ip1_primary_linklocal_address_index;
UINT ip1_primary_global_address_index;
UINT ip1_secondary_linklocal_address_index;
UINT ip1_secondary_global_address_index;
NXD_ADDRESS ip1_primary_linklocal_address;
NXD_ADDRESS ip1_primary_global_address;
NXD_ADDRESS ip1_secondary_linklocal_address;
NXD_ADDRESS ip1_secondary_global_address;
#endif /* NX_DISABLE_IPV6 */
#ifndef NX_DISABLE_IPV4
#ifndef NX_DISABLE_IPV6
/*
Define the number of UDP tests. If IPv6 is enabled, there are 6 tests:
(1) UDP packet tranmisssion to the IPv4 address of the primary interface on ip_1;
(2) UDP packet transmission to the IPv4 address of the secondary interface on ip_1;
(3) UDP packet transmission to the IPv6 link local address of the primary interface on ip_1;
(4) UDP packet transmission to the IPv6 link local address of the secondary interface on ip_1;
(5) UDP packet transmission to the IPv6 global address of the primary interface on ip_1;
(6) UDP packet transmission to the IPv6 global address of the secondary interface on ip_1;
*/
#define NUMBER_OF_TESTS 8
#else /* !NX_DISABLE_IPV6 */
/*
Define the number of UDP tests. If IPv6 is enabled, there are 6 tests:
(1) UDP packet tranmisssion to the IPv4 address of the primary interface on ip_1;
(2) UDP packet transmission to the IPv4 address of the secondary interface on ip_1;
*/
#define NUMBER_OF_TESTS 2
#endif /* !NX_DISABLE_IPV6 */
#else /* !NX_DISABLE_IPV4 */
/*
Define the number of UDP tests. If IPv6 is enabled, there are 6 tests:
(1) UDP packet tranmisssion to the IPv4 address of the primary interface on ip_1;
(2) UDP packet transmission to the IPv4 address of the secondary interface on ip_1;
(3) UDP packet transmission to the IPv6 link local address of the primary interface on ip_1;
(4) UDP packet transmission to the IPv6 link local address of the secondary interface on ip_1;
(5) UDP packet transmission to the IPv6 global address of the primary interface on ip_1;
(6) UDP packet transmission to the IPv6 global address of the secondary interface on ip_1;
*/
#define NUMBER_OF_TESTS 6
#endif /* !NX_DISABLE_IPV4 */
/* Define main entry point. */
int main()
{
/* Enter the ThreadX kernel. */
tx_kernel_enter();
}
/* Define what the initial system looks like. */
void tx_application_define(void *first_unused_memory)
{
CHAR *pointer;
UINT status;
/* Setup the working pointer. */
pointer = (CHAR *)first_unused_memory;
/* Create the main thread. */
tx_thread_create(&thread_0, "thread 0", thread_0_entry, 0,
pointer, DEMO_STACK_SIZE,
4, 4, TX_NO_TIME_SLICE, TX_AUTO_START);
pointer = pointer + DEMO_STACK_SIZE;
/* Create the main thread. */
tx_thread_create(&thread_1, "thread 1", thread_1_entry, 0,
pointer, DEMO_STACK_SIZE,
3, 3, TX_NO_TIME_SLICE, TX_AUTO_START);
pointer = pointer + DEMO_STACK_SIZE;
/* Initialize the NetX system. */
nx_system_initialize();
/* Create a packet pool. */
status = nx_packet_pool_create(&pool_0, "NetX Main Packet Pool", PACKET_SIZE, pool_buffer, POOL_SIZE);
if (status)
{
error_counter++;
}
/* Create an IP instance. */
status = nx_ip_create(&ip_0, "NetX IP Instance 0", IP_ADDRESS(1, 2, 3, 4), 0xFFFFFF00UL, &pool_0, _nx_ram_network_driver,
pointer, 2048, 1);
pointer = pointer + 2048;
/* Create another IP instance. */
status += nx_ip_create(&ip_1, "NetX IP Instance 1", IP_ADDRESS(1, 2, 3, 5), 0xFFFFFF00UL, &pool_0, _nx_ram_network_driver,
pointer, 2048, 1);
pointer = pointer + 2048;
if (status)
{
error_counter++;
}
#ifndef NX_DISABLE_IPV4
/* Set the server IP address to ip_1 primary IPv4 address. */
ip1_primary_ipv4_address.nxd_ip_version = NX_IP_VERSION_V4;
ip1_primary_ipv4_address.nxd_ip_address.v4 = IP_ADDRESS(1, 2, 3, 5);
#endif /* NX_DISABLE_IPV4 */
/* Attach the second interface to IP_0. Note that this interface is attached during initialization time.
Alternatively the second interface may also be attached in thread context, as illustrated below
in thead_0_entry function. */
status = nx_ip_interface_attach(&ip_0, "IP_0 Secondary Interface", IP_ADDRESS(2, 2, 3, 4), 0xFFFFFF00, _nx_ram_network_driver);
if (status)
{
error_counter++;
}
#ifndef NX_DISABLE_IPV4
/* Enable ARP and supply ARP cache memory for IP Instance 0. */
status = nx_arp_enable(&ip_0, (void *)pointer, 1024);
pointer = pointer + 1024;
/* Enable ARP and supply ARP cache memory for IP Instance 1. */
status += nx_arp_enable(&ip_1, (void *)pointer, 1024);
pointer = pointer + 1024;
/* Check ARP enable status. */
if (status)
{
error_counter++;
}
#endif /* NX_DISABLE_IPV4 */
#ifndef NX_DISABLE_IPV6
/* Enable IPv6 */
status = nxd_ipv6_enable(&ip_0);
if (status)
{
error_counter++;
}
status = nxd_ipv6_enable(&ip_1);
if (status)
{
error_counter++;
}
#endif /* !NX_DISABLE_IPV6 */
/* Enable ICMP */
status = nxd_icmp_enable(&ip_0);
if (status)
{
error_counter++;
}
status = nxd_icmp_enable(&ip_1);
if (status)
{
error_counter++;
}
/* Enable UDP processing for both IP instances. */
status = nx_udp_enable(&ip_0);
status += nx_udp_enable(&ip_1);
if (status)
{
error_counter++;
}
}
/* Define the test threads. */
void thread_0_entry(ULONG thread_input)
{
UINT status;
NX_PACKET *my_packet;
#ifndef NX_DISABLE_IPV6
NXD_ADDRESS ip_address;
NXD_IPV6_ADDRESS *server_ipv6_ptr;
#endif /* !NX_DISABLE_IPV6 */
NX_PARAMETER_NOT_USED(thread_input);
/*
At this point, IP_0 already has two interfaces attached during the system initialization phase.
Here is a demonstration of attaching a secondary interface to an IP instance (ip_1 in this case)
after the IP instance has been created and already started.
*/
/*
Attch the second interface to IP_1. Note that this interface is attached in thread context.
Alternatively the second interface may also be attached during system initilization, as illustrated
above in tx_application_define.
*/
/* Attach the 2nd interface to IP_1 */
status = nx_ip_interface_attach(&ip_1, "IP_1 Secondary Interface", IP_ADDRESS(2, 2, 3, 5), 0xFFFFFF00, _nx_ram_network_driver);
/* Check for error. */
if (status)
{
error_counter++;
}
#ifndef NX_DISABLE_IPV4
/* Set the server IP address to ip_1 primary IPv4 address. */
ip1_secondary_ipv4_address.nxd_ip_version = NX_IP_VERSION_V4;
ip1_secondary_ipv4_address.nxd_ip_address.v4 = IP_ADDRESS(2, 2, 3, 5);
#endif /* NX_DISABLE_IPV4 */
#ifndef NX_DISABLE_IPV6
/* Set ip_0 primary link local address. */
status = nxd_ipv6_address_set(&ip_0, PRIMARY_INTERFACE, NX_NULL, 10, &ip0_primary_linklocal_address_index);
if (status)
{
error_counter++;
}
/* Set ip_1 primary link local address. */
status = nxd_ipv6_address_set(&ip_1, PRIMARY_INTERFACE, NX_NULL, 10, &ip1_primary_linklocal_address_index);
if (status)
{
error_counter++;
}
/* Set ip_0 primary interface global address. */
ip_address.nxd_ip_version = NX_IP_VERSION_V6;
ip_address.nxd_ip_address.v6[0] = 0x20010000;
ip_address.nxd_ip_address.v6[1] = 0;
ip_address.nxd_ip_address.v6[2] = 0;
ip_address.nxd_ip_address.v6[3] = 4;
status = nxd_ipv6_address_set(&ip_0, PRIMARY_INTERFACE, &ip_address, 64, &ip0_primary_global_address_index);
if (status)
{
error_counter++;
}
/* Set ip_1 primary interface global address. */
ip_address.nxd_ip_version = NX_IP_VERSION_V6;
ip_address.nxd_ip_address.v6[0] = 0x20010000;
ip_address.nxd_ip_address.v6[1] = 0;
ip_address.nxd_ip_address.v6[2] = 0;
ip_address.nxd_ip_address.v6[3] = 5;
status = nxd_ipv6_address_set(&ip_1, PRIMARY_INTERFACE, &ip_address, 64, &ip1_primary_global_address_index);
if (status)
{
error_counter++;
}
/* Set ip_0 secondary link local address. */
status = nxd_ipv6_address_set(&ip_0, SECONDARY_INTERFACE, NX_NULL, 10, &ip0_secondary_linklocal_address_index);
if (status)
{
error_counter++;
}
/* Set ip_1 secondary link local address. */
status = nxd_ipv6_address_set(&ip_1, SECONDARY_INTERFACE, NX_NULL, 10, &ip1_secondary_linklocal_address_index);
if (status)
{
error_counter++;
}
/* Set ip_0 secondary interface global address. */
ip_address.nxd_ip_version = NX_IP_VERSION_V6;
ip_address.nxd_ip_address.v6[0] = 0x20020000;
ip_address.nxd_ip_address.v6[1] = 0;
ip_address.nxd_ip_address.v6[2] = 0;
ip_address.nxd_ip_address.v6[3] = 4;
status = nxd_ipv6_address_set(&ip_0, SECONDARY_INTERFACE, &ip_address, 64, &ip0_secondary_global_address_index);
if (status)
{
error_counter++;
}
/* Set ip_1 primary interface global address. */
ip_address.nxd_ip_version = NX_IP_VERSION_V6;
ip_address.nxd_ip_address.v6[0] = 0x20020000;
ip_address.nxd_ip_address.v6[1] = 0;
ip_address.nxd_ip_address.v6[2] = 0;
ip_address.nxd_ip_address.v6[3] = 5;
status = nxd_ipv6_address_set(&ip_1, SECONDARY_INTERFACE, &ip_address, 64, &ip1_secondary_global_address_index);
if (status)
{
error_counter++;
}
/* Set the server IP address to ip_1 primary IPv6 link local address. */
server_ipv6_ptr = &ip_1.nx_ipv6_address[ip1_primary_linklocal_address_index];
ip1_primary_linklocal_address.nxd_ip_version = NX_IP_VERSION_V6;
ip1_primary_linklocal_address.nxd_ip_address.v6[0] = server_ipv6_ptr -> nxd_ipv6_address[0];
ip1_primary_linklocal_address.nxd_ip_address.v6[1] = server_ipv6_ptr -> nxd_ipv6_address[1];
ip1_primary_linklocal_address.nxd_ip_address.v6[2] = server_ipv6_ptr -> nxd_ipv6_address[2];
ip1_primary_linklocal_address.nxd_ip_address.v6[3] = server_ipv6_ptr -> nxd_ipv6_address[3];
/* Set the server IP address to ip_1 primary IPv6 global address. */
server_ipv6_ptr = &ip_1.nx_ipv6_address[ip1_primary_global_address_index];
ip1_primary_global_address.nxd_ip_version = NX_IP_VERSION_V6;
ip1_primary_global_address.nxd_ip_address.v6[0] = server_ipv6_ptr -> nxd_ipv6_address[0];
ip1_primary_global_address.nxd_ip_address.v6[1] = server_ipv6_ptr -> nxd_ipv6_address[1];
ip1_primary_global_address.nxd_ip_address.v6[2] = server_ipv6_ptr -> nxd_ipv6_address[2];
ip1_primary_global_address.nxd_ip_address.v6[3] = server_ipv6_ptr -> nxd_ipv6_address[3];
/* Set the server IP address to ip_1 secondary IPv6 link local address. */
server_ipv6_ptr = &ip_1.nx_ipv6_address[ip1_secondary_linklocal_address_index];
ip1_secondary_linklocal_address.nxd_ip_version = NX_IP_VERSION_V6;
ip1_secondary_linklocal_address.nxd_ip_address.v6[0] = server_ipv6_ptr -> nxd_ipv6_address[0];
ip1_secondary_linklocal_address.nxd_ip_address.v6[1] = server_ipv6_ptr -> nxd_ipv6_address[1];
ip1_secondary_linklocal_address.nxd_ip_address.v6[2] = server_ipv6_ptr -> nxd_ipv6_address[2];
ip1_secondary_linklocal_address.nxd_ip_address.v6[3] = server_ipv6_ptr -> nxd_ipv6_address[3];
/* Set the server IP address to ip_1 secondary IPv6 global address. */
server_ipv6_ptr = &ip_1.nx_ipv6_address[ip1_secondary_global_address_index];
ip1_secondary_global_address.nxd_ip_version = NX_IP_VERSION_V6;
ip1_secondary_global_address.nxd_ip_address.v6[0] = server_ipv6_ptr -> nxd_ipv6_address[0];
ip1_secondary_global_address.nxd_ip_address.v6[1] = server_ipv6_ptr -> nxd_ipv6_address[1];
ip1_secondary_global_address.nxd_ip_address.v6[2] = server_ipv6_ptr -> nxd_ipv6_address[2];
ip1_secondary_global_address.nxd_ip_address.v6[3] = server_ipv6_ptr -> nxd_ipv6_address[3];
#endif /* !NX_DISABLE_IPV6 */
/* Wait 5 seconds for the IP thread to finish its initilization and
for the IPv6 stack to finish DAD process. */
tx_thread_sleep(5 * NX_IP_PERIODIC_RATE);
/* Create a UDP socket. */
status = nx_udp_socket_create(&ip_0, &socket_0, "Socket 0", NX_IP_NORMAL, NX_FRAGMENT_OKAY, 0x80, 5);
/* Check status. */
if (status)
{
error_counter++;
}
/* Bind the UDP socket to the IP port. */
status = nx_udp_socket_bind(&socket_0, 0x88, TX_WAIT_FOREVER);
/* Check status. */
if (status)
{
error_counter++;
}
/* Loop to repeat things over and over again! */
while (1)
{
/* Allocate a packet. */
status = nx_packet_allocate(&pool_0, &my_packet, NX_UDP_PACKET, TX_WAIT_FOREVER);
/* Check status. */
if (status != NX_SUCCESS)
{
break;
}
/* Write ABCs into the packet payload! */
nx_packet_data_append(my_packet, DEMO_DATA, sizeof(DEMO_DATA), &pool_0, TX_WAIT_FOREVER);
/* Attempt to send the data. */
/* In this demo, we alternate between IPv4 connections and IPv6 connections. */
switch (thread_0_counter & (NUMBER_OF_TESTS - 1))
{
#ifndef NX_DISABLE_IPV4
case 0:
status = nxd_udp_socket_source_send(&socket_0, my_packet, &ip1_primary_ipv4_address, 0x89, PRIMARY_INTERFACE);
break;
case 1:
status = nxd_udp_socket_source_send(&socket_0, my_packet, &ip1_secondary_ipv4_address, 0x89, SECONDARY_INTERFACE);
break;
#ifndef NX_DISABLE_IPV6
case 2:
status = nxd_udp_socket_source_send(&socket_0, my_packet, &ip1_primary_linklocal_address, 0x89, ip0_primary_linklocal_address_index);
break;
case 3:
status = nxd_udp_socket_source_send(&socket_0, my_packet, &ip1_secondary_linklocal_address, 0x89, ip0_secondary_linklocal_address_index);
break;
case 4:
status = nxd_udp_socket_source_send(&socket_0, my_packet, &ip1_primary_global_address, 0x89, ip0_primary_global_address_index);
break;
case 5:
status = nxd_udp_socket_source_send(&socket_0, my_packet, &ip1_secondary_global_address, 0x89, ip0_secondary_global_address_index);
break;
case 6:
status = nxd_udp_socket_send(&socket_0, my_packet, &ip1_primary_global_address, 0x89);
break;
case 7:
status = nxd_udp_socket_send(&socket_0, my_packet, &ip1_secondary_global_address, 0x89);
break;
#endif /* !NX_DISABLE_IPV6 */
#else /* !NX_DISABLE_IPV4 */
#ifndef NX_DISABLE_IPV6
case 0:
status = nxd_udp_socket_source_send(&socket_0, my_packet, &ip1_primary_linklocal_address, 0x89, ip0_primary_linklocal_address_index);
break;
case 1:
status = nxd_udp_socket_source_send(&socket_0, my_packet, &ip1_secondary_linklocal_address, 0x89, ip0_secondary_linklocal_address_index);
break;
case 2:
status = nxd_udp_socket_source_send(&socket_0, my_packet, &ip1_primary_global_address, 0x89, ip0_primary_global_address_index);
break;
case 3:
status = nxd_udp_socket_source_send(&socket_0, my_packet, &ip1_secondary_global_address, 0x89, ip0_secondary_global_address_index);
break;
case 4:
status = nxd_udp_socket_send(&socket_0, my_packet, &ip1_primary_global_address, 0x89);
break;
case 5:
status = nxd_udp_socket_send(&socket_0, my_packet, &ip1_secondary_global_address, 0x89);
break;
#endif /* !NX_DISABLE_IPV6 */
#endif /* NX_DISABLE_IPV4 */
default:
break;
}
/* Check for error. */
if (status)
{
nx_packet_release(my_packet);
error_counter++;
}
/* Increment thread 0's counter. */
thread_0_counter++;
/* Relinquish to thread 1. */
tx_thread_relinquish();
}
}
void thread_1_entry(ULONG thread_input)
{
UINT status;
NX_PACKET *my_packet;
ULONG actual_status;
NX_PARAMETER_NOT_USED(thread_input);
/* Wait 5 seconds for the IP thread to finish its initilization and
for the IPv6 stack to finish DAD process. */
tx_thread_sleep(5 * NX_IP_PERIODIC_RATE);
/* Ensure the IP instance has been initialized. */
status = nx_ip_status_check(&ip_1, NX_IP_INITIALIZE_DONE, &actual_status, NX_IP_PERIODIC_RATE);
/* Check status... */
if (status != NX_SUCCESS)
{
error_counter++;
}
/* Create a UDP socket. */
status = nx_udp_socket_create(&ip_1, &socket_1, "Socket 1", NX_IP_NORMAL, NX_FRAGMENT_OKAY, 0x80, 5);
/* Check status. */
if (status)
{
error_counter++;
}
/* Bind the UDP socket to the IP port. */
status = nx_udp_socket_bind(&socket_1, 0x89, TX_WAIT_FOREVER);
/* Check status. */
if (status)
{
error_counter++;
}
/* Loop to create and establish server connections. */
while (1)
{
/* Receive a UDP packet. */
status = nx_udp_socket_receive(&socket_1, &my_packet, TX_WAIT_FOREVER);
/* Check status. */
if (status != NX_SUCCESS)
{
break;
}
/* Release the packet. */
status = nx_packet_release(my_packet);
/* Check status. */
if (status != NX_SUCCESS)
{
break;
}
/* Increment thread 1's counter. */
thread_1_counter++;
}
}
#endif